CN219748810U - Mold opening and closing sequential mold locking buckle - Google Patents

Abstract

The utility model relates to the technical field of dies, in particular to an opening and closing die sequential die locking buckle which comprises a lower die, a middle die plate, an upper die and a mounting assembly, wherein the lower die is provided with a die opening and closing die; the mounting assembly comprises a matching frame, a connecting block, a driving block, a limiting member, a clamping member and a guiding member; the cooperation frame is connected with the well template fixed connection to be located one side of well template, the connecting block is connected with the cooperation frame, and fixed mounting is in one side of lower mould, drives the piece and is connected with the cooperation frame, and fixed mounting is in one side of last mould, and spacing component is connected with the cooperation frame, and the screens component is connected with the cooperation frame, and the guide component is connected with well template, has realized that the component that can set up can be to the control of the die sequence of opening and shutting of mould, makes more convenient when in actual use.

Description

Mold opening and closing sequential mold locking buckle

Technical Field

The utility model relates to the technical field of molds, in particular to a sequential mold locking buckle for mold opening and closing.

Background

The mould can have the die opening and closing sequence requirement of corresponding templates when injection moulding is carried out, and the die opening and closing sequence of the mould can be controlled to drive different plates of the mould generally by arranging two groups of driving mechanisms, but the mode is adopted, so that the corresponding driving structure is required to be additionally arranged, and the mould is very inconvenient in the actual use process.

Disclosure of Invention

The utility model aims to provide a die opening and closing sequence die locking buckle which can control the die opening and closing sequence of a die through a set component, so that the die opening and closing sequence die locking buckle is more convenient in actual use.

In order to achieve the above purpose, the utility model provides an opening and closing die sequence locking buckle, which comprises a lower die, a middle die plate, an upper die and a mounting assembly;

the mounting assembly comprises a matching frame, a connecting block, a driving block, a limiting member, a clamping member and a guiding member; the cooperation frame with well template fixed connection, and be located well template one side, the connecting block with cooperation frame is connected, and fixed mounting is in one side of lower mould, the drive piece with cooperation frame is connected, and fixed mounting is in one side of last mould, stop member with cooperation frame is connected, screens member with cooperation frame is connected, guide member with well template is connected.

The limiting component comprises a sliding insertion block and an extrusion spring, wherein the sliding insertion block is connected with the connecting block, connected with the driving block and slidably arranged on one side of the matching frame; and two sides of the extrusion spring are respectively connected with the sliding plug block and the matching frame.

The clamping component comprises a moving block, an inclined jacking block and a compression spring, wherein the moving block is in sliding connection with the matching frame and is positioned at one side of the matching frame; the inclined top block is fixedly connected with the connecting block and is positioned at one side of the connecting block, which is close to the moving block; and two sides of the compression spring are respectively connected with the moving block and the matching frame.

The sliding insert block is provided with a connecting boss and a guide round table, and the connecting boss is positioned at one side of the sliding insert block; the guide round platform is positioned at one side of the connecting boss, which is close to the driving block.

The guide member comprises an upper lug, an upper guide frame, a lower lug and a lower guide frame, wherein the upper lug is fixedly connected with the middle die and is positioned at one side of the middle die; the upper guide frame is in sliding connection with the upper protruding block and is fixedly arranged on one side of the upper die; the lower protruding block is fixedly connected with the middle template and is positioned at one side of the middle template; the lower guide frame is in sliding connection with the lower protruding block and is fixedly arranged on one side of the lower die.

According to the mold opening and closing sequential mold locking buckle, the upper mold drives the driving block to move upwards, after the driving block moves upwards to a designated height, the guide round table drives the sliding insert block to move towards the inside of the matching frame under the driving of the track groove on the surface of the driving block, so that the sliding insert block is pulled out of the clamping groove of the connecting block, and when the upper mold continues to move upwards, the connecting block and the matching frame are not limited any more, so that the middle mold plate can be demoulded from the lower mold under the driving of the upper mold. In-process that well template and lower mould were carried out the drawing of patterns, fixed on the connecting block also can with the cooperation frame is inside to be equipped with the movable block is accomplished to break away from, works as the movable block does not the extrusion of sloping roof block just can be in under compression spring's effect the cooperation frame side stretches out, so alright to this the bottom of driving the piece carries out the screens, and then accomplishes the orderly die sinking of both sides, when needing to carry out the compound die, go up the mould just can drive the driving piece moves down, because driving piece bottom is blocked by the movable block, consequently go up the mould down when moving down, well template just can be followed go up the mould down move earlier with the lower mould carries out the compound die cooperation, well template is in with during the lower mould is joined in marriage, down be equipped with on the connecting block just can with the cooperation frame again, simultaneously the sloping roof piece can also extrude the movable block is reentrant in the cooperation frame, when need carry out the compound die, the movable block bottom is blocked by the movable block, consequently moves down the movable block down and carries out the cooperation with the cooperation frame again, and can be accomplished through the cooperation of the cooperation frame under the cooperation frame, and the cooperation frame is realized to the cooperation of the whole piece is carried out to the cooperation of moving down.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic structural view of an overall mold-opening and closing sequential mold-locking buckle according to a first embodiment of the present utility model.

Fig. 2 is a schematic view of the internal structure of the mating frame according to the first embodiment of the present utility model.

Fig. 3 is an enlarged view at a of fig. 2 of a first embodiment of the present utility model.

Fig. 4 is a schematic view of the mounting structure of the moving block according to the first embodiment of the present utility model.

Fig. 5 is a schematic structural diagram of an overall mold-opening and closing sequential mold-locking buckle according to a second embodiment of the present utility model.

In the figure: 101-lower die, 102-middle die plate, 103-upper die, 104-mating frame, 105-connecting block, 106-driving block, 107-sliding insert block, 108-extrusion spring, 109-moving block, 110-oblique top block, 111-compression spring, 112-connecting boss, 113-guiding round table, 201-upper bump, 202-upper guiding frame, 203-lower bump, 204-lower guiding frame.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

The first embodiment of the utility model is as follows:

referring to fig. 1 to 4, fig. 1 is a schematic structural diagram of an overall mold opening and closing sequence mold locking buckle, fig. 2 is a schematic internal structural diagram of the mating frame 104, fig. 3 is an enlarged view of a portion a of fig. 2, and fig. 4 is a schematic installation structure of the moving block 109.

The utility model provides a mold opening and closing sequence mold locking buckle, which comprises a mold opening and closing sequence mold locking buckle body and a mold opening and closing sequence mold locking buckle body, wherein the mold opening and closing sequence mold locking buckle body comprises a mold opening and closing buckle body and a mold: the die comprises a lower die 101, a middle die 102, an upper die 103 and a mounting assembly, wherein the mounting assembly comprises a matching frame 104, a connecting block 105, a driving block 106, a limiting member, a clamping member and a guiding member, the limiting member comprises a sliding insertion block 107 and a compression spring 108, the clamping member comprises a moving block 109, an inclined ejection block 110 and a compression spring 111, the sliding insertion block 107 is provided with a connecting boss 112 and a guiding circular table 113, the die opening and closing sequence requirement of a corresponding die plate when the die is subjected to injection molding is solved through the scheme, the die opening and closing sequence of the die can be controlled to drive different die blocks of the die through the two groups of driving mechanisms, but the corresponding driving structure is required to be additionally arranged in the mode, so that the problem of inconvenience is caused in the practical use process.

For this embodiment, the middle die 102 is installed between the upper die 103 and the lower die 101, and the upper die 103 is connected with a driving mechanism provided outside, so that the die separation can be completed through the movement of the upper die 103, and the lower die 101, the upper die 103 and the middle die 102 are all of a very mature structure, so that no description is given in this scheme.

The connecting block 105 is connected with the matching frame 104 and is fixedly installed at one side of the lower die 101, the driving block 106 is connected with the matching frame 104 and is fixedly installed at one side of the upper die 103, the limiting member is connected with the matching frame 104, the clamping member is connected with the matching frame 104, the guiding member is connected with the middle die 102, the sliding insert block 107 is connected with the connecting block 105 and is connected with the driving block 106, and is slidably installed at one side of the matching frame 104; both sides of the extrusion spring 108 are respectively connected with the sliding insert block 107 and the matching frame 104, and the connecting boss 112 is positioned at one side of the sliding insert block 107; the guide round table 113 is located at one side of the connecting boss 112 near the driving block 106, the two sets of mounting components are arranged at two sets of the mounting components, the two sets of mounting components are respectively mounted at two corresponding sides of the whole die so as to facilitate better control of the die opening and closing process, the matching frame 104 is fixedly mounted at one side of the middle die 102, the matching frame 104 is provided with a connecting groove for connecting the connecting block 105 and the driving block 106, the side of the connecting block 105 is provided with a slot, the slot of the connecting block 105 is matched with a boss at the side of the sliding plug block 107 at one side of the matching frame 104, the sliding plug block 107 is matched with a sliding groove arranged in the matching frame 104, two sides of the extrusion spring 108 are fixed between the back side of the sliding plug block 107 and the inner wall of the sliding groove, the connecting boss 112 provided with the sliding plug block 107 is also provided with the guide 113, the guide round table 113 corresponds to a track groove arranged on the surface of the driving block 106, when the driving block 106 moves along the upper die 103, the guide round table is driven by the guide round table 113, the sliding plug block is driven by the sliding plug block 113 and the sliding plug block 106, and the sliding plug block is driven by the sliding plug block 113 to move along the track 113, and the track is arranged at the bottom of the sliding plug table 113, and the sliding plug table is driven by the sliding plug block 113, and the sliding plug table is driven by the sliding guide table 113 to move along the track 113, therefore, the sliding insert 107 is disengaged from the slot formed in the side of the connecting block 105, and if the upper die 103 continues to perform die opening movement under the driving of the external driving device, the middle die 102 moves along with the upper die 103 due to the cooperation of the guide member and the driving block 106 with the sliding insert 107, and the connecting block 105 is not limited by the sliding insert 107, so that the middle die 102 and the lower die 101 complete die opening, thereby achieving orderly control of die opening on the upper side and the lower side.

Secondly, the moving block 109 is slidably connected to the mating frame 104 and located at one side of the mating frame 104; the oblique top block 110 is fixedly connected with the connecting block 105 and is positioned at one side of the connecting block 105 close to the moving block 109; the two sides of the compression spring 111 are respectively connected with the moving block 109 and the matching frame 104, the moving block 109 is matched with a moving groove arranged in the matching frame 104, the bosses on the two sides of the moving block 109 are provided with the compression spring 111, the side edges of the moving block 109 are also provided with inclined protrusions matched with the inclined platforms on the top of the inclined top block 110, when the inclined platforms on the top of the inclined top block 110 are completely contacted with the inclined protrusions of the moving block 109, the moving block 109 is completely retracted into the matching frame 104, meanwhile, the compression spring 111 arranged on the moving block 109 is also in a compressed state, when the inclined top block 110 moves downwards along with the connecting block 105, the moving block 109 is ejected from the side edges of the matching frame 104 under the action of the compression spring 111 due to the downward movement of the inclined top block 110, so that the bottom of the driving block 106 in a die opening state is clamped, and the stability of the subsequent die closing sequence is ensured.

When the mold opening and closing sequential mold locking buckle of the embodiment is used, the upper mold 103 drives the driving block 106 to move upwards, after the driving block 106 moves upwards to a designated height, the guide circular table 113 drives the sliding insert 107 to move towards the inside of the matching frame 104 under the driving of the track groove on the surface of the driving block 106, so that the sliding insert 107 is pulled out from the clamping groove of the connecting block 105, and when the upper mold 103 moves upwards, the middle mold 102 is released from the lower mold 101 under the driving of the upper mold 103 because the connecting block 105 and the matching frame 104 are not limited any more. In the process of demolding the middle template 102 and the lower die 101, the inclined top block 110 fixed on the connecting block 105 is separated from the moving block 109 arranged in the matching frame 104, when the moving block 109 does not have the extrusion of the inclined top block 110, the side edge of the matching frame 104 stretches out under the action of the compression spring 111, so that the bottom of the driving block 106 can be clamped, further, the two sides of the driving block 106 are orderly opened, when the two sides of the driving block are needed to be clamped, the upper die 103 can drive the driving block 106 to move downwards, and as the bottom of the driving block 106 is clamped by the moving block 109, the middle template 102 can follow the upper die 103 to move downwards to be matched with the lower die 101 in a matched mode, when the middle template 102 is matched with the lower die 101, the lower die 101 is provided with the lower die 105 again, simultaneously, the inclined top block 105 is fixed on the connecting block 110, and the connecting block 105 is matched with the lower die 106 again, and the lower die 107 can be more conveniently matched with the connecting block 106 in a matched mode through the moving block 109, and the sliding frame 107 can be realized.

Second embodiment:

referring to fig. 5, fig. 5 is a schematic structural diagram of an overall mold-locking buckle of the second embodiment, and the guiding member provided by the present utility model includes an upper bump 201, an upper guiding frame 202, a lower bump 203 and a lower guiding frame 204.

Wherein, the upper protruding block 201 is fixedly connected with the middle template 102 and is positioned at one side of the middle template 102; the upper guide frame 202 is slidably connected with the upper protruding block 201 and is fixedly installed at one side of the upper die 103; the lower protruding block 203 is fixedly connected with the middle die plate 102 and is positioned at one side of the middle die plate 102; the lower guide frame 204 is slidably connected with the lower protruding block 203, and is fixedly mounted on one side of the lower die 101, the upper protruding block 201 and the lower protruding block 203 are respectively matched with guide grooves formed in the upper guide frame 202 and the lower guide frame 204, the upper guide frame 202 and the lower guide frame 204 are respectively fixed on the sides of the upper die 103 and the lower die 101, the upper guide frame 202 and the upper protruding block 201 are matched to guide the whole movement when the upper die 103 and the middle die 102 are separated, and meanwhile, after the upper die 103 and the middle die 102 are separated, the middle die 102 and the upper die 103 can be driven to move together, and the lower guide frame 204 and the lower protruding block 203 are used for guaranteeing the stability of the movement when the middle die 102 and the lower die 101 are separated.

When the mold opening and closing sequence locking buckle is used, the upper guide frame 202 and the upper protruding block 201 are matched to ensure that the upper mold 103 and the middle mold 102 move stably when being separated, the lower guide frame 204 and the lower protruding block 203 are matched to ensure that the lower mold 101 and the middle mold 102 move stably when being separated, so that the mold opening and closing sequence locking buckle is more convenient in actual use, and the practicability of the whole device is greatly enhanced.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present utility model, and it is not intended to limit the scope of the claims hereof, as persons of ordinary skill in the art will understand that all or part of the processes for practicing the embodiments described herein may be practiced with equivalent variations in the claims, which are within the scope of the utility model.

Claims (5)

1. The mold opening and closing sequence locking buckle comprises a lower mold, a middle mold plate and an upper mold, and is characterized in that,

the device also comprises a mounting assembly;

the mounting assembly comprises a matching frame, a connecting block, a driving block, a limiting member, a clamping member and a guiding member; the cooperation frame with well template fixed connection, and be located well template one side, the connecting block with cooperation frame is connected, and fixed mounting is in one side of lower mould, the drive piece with cooperation frame is connected, and fixed mounting is in one side of last mould, stop member with cooperation frame is connected, screens member with cooperation frame is connected, guide member with well template is connected.

2. The progressive die lock according to claim 1, wherein,

the limiting component comprises a sliding insertion block and an extrusion spring, wherein the sliding insertion block is connected with the connecting block, connected with the driving block and slidably arranged on one side of the matching frame; and two sides of the extrusion spring are respectively connected with the sliding plug block and the matching frame.

3. The progressive die lock according to claim 1, wherein,

the clamping component comprises a moving block, an inclined jacking block and a compression spring, wherein the moving block is in sliding connection with the matching frame and is positioned at one side of the matching frame; the inclined top block is fixedly connected with the connecting block and is positioned at one side of the connecting block, which is close to the moving block; and two sides of the compression spring are respectively connected with the moving block and the matching frame.

4. The progressive die lock according to claim 2, wherein,

the sliding insert block is provided with a connecting boss and a guide round table, and the connecting boss is positioned at one side of the sliding insert block; the guide round platform is positioned at one side of the connecting boss, which is close to the driving block.

5. The progressive die lock according to claim 1, wherein,

the guide member comprises an upper lug, an upper guide frame, a lower lug and a lower guide frame, wherein the upper lug is fixedly connected with the middle die plate and is positioned at one side of the middle die plate; the upper guide frame is in sliding connection with the upper protruding block and is fixedly arranged on one side of the upper die; the lower protruding block is fixedly connected with the middle template and is positioned at one side of the middle template; the lower guide frame is in sliding connection with the lower protruding block and is fixedly arranged on one side of the lower die.